JP3524330B2 - Crime and disaster prevention system - Google Patents
Crime and disaster prevention systemInfo
- Publication number
- JP3524330B2 JP3524330B2 JP17156297A JP17156297A JP3524330B2 JP 3524330 B2 JP3524330 B2 JP 3524330B2 JP 17156297 A JP17156297 A JP 17156297A JP 17156297 A JP17156297 A JP 17156297A JP 3524330 B2 JP3524330 B2 JP 3524330B2
- Authority
- JP
- Japan
- Prior art keywords
- detector
- receiver
- disaster prevention
- prevention system
- crime
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Audible And Visible Signals (AREA)
- Emergency Alarm Devices (AREA)
- Alarm Systems (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、火災、ガス漏れ、
侵入及び地震等を検出して報知する防犯・防災システム
に関する。TECHNICAL FIELD The present invention relates to a fire, a gas leak,
The present invention relates to a crime prevention / disaster prevention system that detects and reports intrusions and earthquakes.
【0002】[0002]
【従来の技術】従来の防犯・防災システムは、火災、ガ
ス漏れ、侵入等を検出する検出器と、地震を感知する感
震器と、各検出器からの検出信号及び感震器からの信号
を受けて警報を出力する受信機とを備えており、各検出
器と受信機は信号線及び電源線で接続されている。図6
はそのような従来の防犯・防災システムの一例の構成を
示すブロック図である。この図において、防犯・防災シ
ステム1の受信機2には防犯用の検出器3 1、32、
33、…、3nと地震を感知する感震器4とが接続されて
いる。また、受信機2には火災受信機5から火災やガス
漏れ等の異常信号が移報される。2. Description of the Related Art Conventional crime prevention and disaster prevention systems are
A detector that detects leaks and intrusions, and a feeling that an earthquake is sensed.
Signals from seismic instruments, detection signals from each detector, and seismic sensors
It is equipped with a receiver that receives an alarm and outputs an alarm.
The receiver and receiver are connected by signal lines and power lines. Figure 6
Is an example of such a conventional crime prevention and disaster prevention system
It is a block diagram shown. In this figure, crime prevention and disaster prevention
The receiver 2 of the stem 1 has a detector 3 for crime prevention. 1, 32,
Three3, ... 3n and seismic sensor 4 that senses an earthquake are connected
There is. In addition, the fire and gas from the fire receiver 5 is transmitted to the receiver 2.
An abnormal signal such as a leak is transferred.
【0003】受信機2と検出器31、32、33、…、3n
との間には信号線と電源線が配線されており、受信機2
はポーリングセレクティング方式により検出器31、
32、3 3、…、3nに対して侵入の有無を問い合せ、返
答があった検出器3を特定すると共に警報を出力する。
火災受信機5には火災検出器やガス漏れ検出器61、
62、…、6nが複数接続されており、これらに対して受
信機2と同様にポーリングセレクティング方式により火
災、ガス漏れ等の有無を問い合せ、返答があった検出器
6を特定すると共に警報を出力する。Receiver 2 and detector 31Three2Three3, ... 3n
A signal line and a power line are wired between the receiver 2 and
Is the detector 3 by the polling selecting method.1,
Three2Three Inquires about the presence of intrusions to 3n, 3n, and returns
The detector 3 that gives an answer is specified and an alarm is output.
The fire receiver 5 includes a fire detector and a gas leak detector 61,
62, ..., 6n are connected to each other, and
As with the transmitter 2, fire is performed by the polling selection method.
Detector that inquires about the existence of disasters, gas leaks, etc. and responds
6 is specified and an alarm is output.
【0004】[0004]
【発明が解決しようとする課題】ところで、上述した従
来の防犯・防災システムにあっては、地震等により受信
機2と検出器31、32、33、…、3nとの間又は火災受
信機5と検出器61、62、…、6nとの間の配線が断線
した場合や、停電、電源コードの断線等により受信機2
及び火災受信機5に電源が供給されなくなった場合に設
備としての役割を全く果たさなくなってしまうという問
題点があった。By the way, in the above-mentioned conventional crime prevention / disaster prevention system, due to an earthquake or the like, there is a fire between the receiver 2 and the detectors 3 1 , 3 2 , 3 3 ,. , 6n when the receiver 5 and the detectors 6 1 , 6 2 , ..., 6n are disconnected, due to a power failure, disconnection of the power cord, or the like.
Also, there is a problem that when the power is not supplied to the fire receiver 5, the fire receiver 5 does not play any role as a facility at all.
【0005】また、従来の防犯・防災システムは、火
災、ガス漏れ、侵入等の異常を検出して報知するのみで
あり、建物内の各所に検出器を設置することもあって防
犯や防災以外の用途への活用も望まれている。例えば、
非常灯は防犯・防災システムと別に建物内に設置される
ことから、施工時の作業の省力化及びコストの削減の点
で好ましいものでない。非常灯の機能を防犯・防災シス
テムに持たせることで施工時の作業の省力化及びコスト
の削減が可能になる。この場合、防犯・防災システムの
検出器は必ず建物内の各部屋に設置されることから、こ
れに非常灯の機能を持たせることで非常灯だけの場合よ
りも広範囲に照すことができ、災害発生時の安全性を十
分に確保することができる。なお、従来からの非常灯と
して、焦電センサを備えていて人が近づくと自動的に点
灯するものやコンセントに差込んでおいて停電時に自動
的に点灯するものなどがある。In addition, the conventional crime prevention / disaster prevention system only detects and reports anomalies such as fire, gas leakage, intrusion, etc., and detectors may be installed at various places in the building to prevent crime and disaster prevention. It is also desired to utilize it for other purposes. For example,
Since the emergency light is installed in the building separately from the crime prevention / disaster prevention system, it is not preferable in terms of labor saving and cost reduction during construction. By adding the function of an emergency light to a crime prevention / disaster prevention system, it is possible to save labor during construction and reduce costs. In this case, the detector of the crime prevention / disaster prevention system is always installed in each room in the building, so by providing it with the function of an emergency light, it is possible to illuminate a wider area than when using only an emergency light. It is possible to ensure sufficient safety in the event of a disaster. Conventional emergency lights include those equipped with a pyroelectric sensor that automatically light up when a person approaches, or those that plug into an outlet and automatically light up during a power failure.
【0006】本発明は上述した事情に鑑みてなされたも
ので、災害による受信機と検出器との間の配線の断線
や、停電、電源コードの断線等により受信機への電源の
供給が途絶えた場合でも非常灯として活用できる防犯・
防災システムを提供することを目的としている。The present invention has been made in view of the above-mentioned circumstances, and the power supply to the receiver is interrupted due to disconnection of the wiring between the receiver and the detector due to a disaster, power failure, disconnection of the power cord, or the like. Security that can be used as an emergency light even when
The purpose is to provide a disaster prevention system.
【0007】[0007]
【課題を解決するための手段】この目的達成のため、本
発明による防犯・防災システムは、侵入、火災、ガス漏
れ又は地震等の異常を検出した際発報表示をする発報表
示灯を具備する検出器と、この検出器と電線により接続
され、該検出器の発報により警報を出力する受信機とを
備えた防犯・防災システムにおいて、前記検出器に前記
発報表示灯を非常灯として兼用させて点灯させる照明手
段を設けると共に、前記受信機への商用電源断、地震、
その他外部からの特定の信号の入力時に前記照明手段を
点灯させる制御手段を設けたことを特徴とする。To achieve this object, the crime prevention / disaster prevention system according to the present invention is a report table for displaying a report when an abnormality such as intrusion, fire, gas leak or earthquake is detected.
A detector having a示灯, are connected by the detector and the wire, in crime and disaster prevention system comprising a receiver which outputs an alarm by the alarm of the detector, the said detector
A lighting means is also provided for turning on the alarm indicator lamp also as an emergency light, and shutting down commercial power to the receiver, earthquake,
In addition, a control means for turning on the illumination means when a specific signal is input from the outside is provided.
【0008】この構成によれば、受信機への商用電源の
供給が途絶えたとき又は検出器が発報したとき又は地震
が発生したときに各検出器の照明手段が点灯する。した
がって、防犯・防災システムは、火災、ガス漏れ、地震
等の異常が発生した場合のみならず、受信機への電源の
供給が途絶えた場合でも非常灯として機能するので、災
害発生時の安全性を十分に確保できる。According to this structure, the illumination means of each detector is turned on when the commercial power supply to the receiver is interrupted, when the detector issues a warning, or when an earthquake occurs. Therefore, the crime prevention / disaster prevention system functions as an emergency light not only when there is an abnormality such as a fire, gas leak, or earthquake, but also when the power supply to the receiver is cut off. Can be sufficiently secured.
【0009】また、検出器の発報である場合には照明手
段を低輝度で点灯させることで非常灯を発報表示灯と兼
用でき、非常灯を別個に設ける必要がなく、その分、コ
ストの上昇を抑えることができる。 Further, in the case of alarm detectors it can also serve as alarm indicator the emergency lamp by turning on the illumination means at a low intensity, separately is not necessary to provide a very light, correspondingly, the cost Can suppress the rise of.
【0010】また、周囲の明るさが一定以上あれば検出
器の発報を除いて照明手段の点灯を行わず、周囲の明る
さが一定以下であれば照明手段を高輝度で点灯させるよ
うにすることで、無駄な電力を消費することがなく、省
電力化が図れる。また、各検出器に、予備電源を設け、
受信機との間の配線が断線したときに予備電源に切り替
えることで、受信機と各検出器との間の配線の断線が生
じた場合でも非常灯として機能するので、災害発生時の
安全性を十分に確保できる。Further, if the ambient brightness is above a certain level, the lighting means is not turned on except for the alarm from the detector, and if the surrounding brightness is below a certain level, the lighting means is turned on with high brightness. By doing so, it is possible to save power without wasting power. In addition, each detector is equipped with a standby power supply,
By switching to the standby power supply when the wiring between the receiver and the detector is broken, it functions as an emergency light even if the wiring between the receiver and each detector is broken, so safety in the event of a disaster Can be sufficiently secured.
【0011】[0011]
【0012】[0012]
【発明の実施の形態】以下、本発明の実施の形態を、図
面例と共に説明する。図1は本発明に係る防犯・防災シ
ステムの実施の形態の構成を示すブロック図である。BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an embodiment of a crime prevention / disaster prevention system according to the present invention.
【0013】A.防犯・防災システムの構成
この実施の形態の防犯・防災システム10は、火災、ガ
ス漏れ、侵入等の異常が生じたとき又は停電や電源コー
ドの断線等によって商用電源の供給が途絶えたとき又は
受信機と検出器との間の配線が断線したとき又は地震が
起こったときで周囲の明るさが一定以下であれば、受信
機11、防犯用の検出器121、122、123、…、1
2n、火災受信機13、火災、ガス漏れ検出用の検出器
141、142、…、14nの夫々に設けられた白色LE
D(高輝度発光ダイオード)を高輝度で点灯させるもの
である。本発明では、防犯システムでも火災システムで
も同様の作用、効果が得られることから、以下防犯部分
について説明する。A. Configuration of Crime Prevention / Disaster Prevention System The crime prevention / disaster prevention system 10 of this embodiment is used when an abnormality such as a fire, a gas leak, or an intrusion occurs, or when the supply of commercial power is interrupted due to a power outage, a disconnection of a power cord, or the like. If the ambient brightness is below a certain level when the wiring between the machine and the detector is broken or an earthquake occurs, the receiver 11 and the crime prevention detectors 12 1 , 12 2 , 12 3 , ... 1
2n, a fire receiver 13, and a white LE provided on each of the detectors 14 1 , 14 2 , ..., 14n for detecting fire and gas leak
D (high brightness light emitting diode) is turned on with high brightness. In the present invention, since the same operation and effect can be obtained in both the crime prevention system and the fire system, the crime prevention part will be described below.
【0014】(a)防犯用の検出器12の構成
図2は防犯用の検出器12の一部破断面を示す側面図で
ある。この図において、20は焦電素子、21はフレネ
ルレンズとなった半球状のケースである。白色LED1
5はケース21内に設けられている。図3は検出器12
の構成を示すブロック図である。この図において、検出
器12は、上記白色LED15及び焦電素子20の他
に、素子出力演算回路25、警報出力回路26、LED
・リレー駆動回路27、フォトトランジスタ28、定電
圧回路29、ノイズ吸収及び整流回路30、点灯信号検
出回路31、リレーコイル32、リレー接点331、3
32、抵抗34、バッテリ(予備電源)35、ダイオー
ド36を備えている。(A) Configuration of the crime prevention detector 12 FIG. 2 is a side view showing a partially broken section of the crime prevention detector 12. In this figure, 20 is a pyroelectric element, and 21 is a hemispherical case which is a Fresnel lens. White LED 1
5 is provided in the case 21. FIG. 3 shows the detector 12
3 is a block diagram showing the configuration of FIG. In this figure, in addition to the white LED 15 and the pyroelectric element 20, the detector 12 includes an element output calculation circuit 25, an alarm output circuit 26, and an LED.
-Relay drive circuit 27, phototransistor 28, constant voltage circuit 29, noise absorption and rectification circuit 30, lighting signal detection circuit 31, relay coil 32, relay contacts 33 1 , 3
3 2 , a resistor 34, a battery (standby power supply) 35, and a diode 36.
【0015】素子出力演算回路25は焦電素子20を駆
動すると共にその出力を取り込んで所定の演算を行い、
人体の検出を行う。人体を検出したときには検出信号を
出力する。警報出力回路26は素子出力演算回路25か
らの検出信号を取り込むことで警報信号を出力する。L
ED・リレー駆動回路27は警報出力回路26からの警
報信号を取り込むことでこれを端子T1から外部(受信
機11)へ出力すると共に白色LED15を点灯させ
る。また、LED・リレー駆動回路27は点灯信号検出
回路31からの信号を取り込むとフォトトランジスタ2
8の出力を判定し、その出力が所定レベル以下であると
判断すると、白色LED15を点灯させる。このとき、
白色LED15に流す電流を警報信号を取り込んだとき
よりも多くして輝度を上げて非常灯として機能させる。The element output calculation circuit 25 drives the pyroelectric element 20 and takes in its output to perform a predetermined calculation.
Detects the human body. When the human body is detected, a detection signal is output. The alarm output circuit 26 outputs an alarm signal by taking in the detection signal from the element output calculation circuit 25. L
The ED / relay drive circuit 27 takes in the alarm signal from the alarm output circuit 26 and outputs it from the terminal T 1 to the outside (receiver 11) and turns on the white LED 15. In addition, the LED / relay drive circuit 27 receives the signal from the lighting signal detection circuit 31 and the phototransistor 2
When the output of 8 is judged and it is judged that the output is below a predetermined level, the white LED 15 is turned on. At this time,
The current flowing through the white LED 15 is made larger than that when an alarm signal is taken in to raise the brightness and make it function as an emergency light.
【0016】定電圧回路29はノイズ吸収及び整流回路
30でノイズ吸収され、整流された直流電圧を定電圧化
し、上記LED・リレー駆動回路27、警報出力回路2
6、素子出力演算回路25及び焦電素子20に供給す
る。点灯信号検出回路31は受信機11から供給される
電源にパルス状の点灯信号が重畳されている場合にその
点灯信号を抽出して出力する。リレー接点331は端子
T2とノイズ吸収及び整流回路30との間に介挿されて
おり、受信機11から電源が供給されていてリレーコイ
ル32が通電状態にある間は閉状態になり、受信機11
から電源が供給され無くなると開状態になる。リレー接
点332は二つの接点a、bと共通接点cとからなり、
共通接点cはリレーコイル32が非通電状態のときに接
点b側に位置し、通電状態になると接点a側に切り替わ
る。リレー接点332の共通接点cと接地との間に抵抗
34とバッテリ35が直列に介挿される。The constant voltage circuit 29 absorbs noise in the noise absorbing and rectifying circuit 30 and converts the rectified DC voltage into a constant voltage, and the LED / relay drive circuit 27 and the alarm output circuit 2
6, the element output calculation circuit 25 and the pyroelectric element 20 are supplied. The lighting signal detection circuit 31 extracts and outputs the lighting signal when a pulsed lighting signal is superimposed on the power supplied from the receiver 11. The relay contact 33 1 is inserted between the terminal T 2 and the noise absorbing and rectifying circuit 30, and is closed while the power is supplied from the receiver 11 and the relay coil 32 is energized. Receiver 11
When the power is not supplied from, it opens. The relay contact 33 2 comprises two contacts a and b and a common contact c,
The common contact c is located on the contact b side when the relay coil 32 is in the non-energized state, and switches to the contact a side when the relay coil 32 is in the energized state. A resistor 34 and a battery 35 are inserted in series between the common contact c of the relay contact 33 2 and the ground.
【0017】リレー接点332の共通接点cが接点b側
に切り替わることでバッテリ35の電源がノイズ吸収及
び整流回路30に供給されると共にLED・リレー駆動
回路27に供給される。LED・リレー駆動回路27は
バッテリ35の電源が供給されたときにフォトトランジ
スタ28の出力を判定し、その出力が所定レベル以下で
あると判断すると白色LED15を点灯させる。このと
き、白色LED15に流す電流を警報信号を取り込んだ
ときよりも多くして輝度を上げて非常灯として機能させ
る。リレー接点332の共通接点cは受信機11からの
電源の供給が停止したときには接点b側に切り替わる。
ダイオード36はリレー接点331が閉状態にある間に
受信機11の電源がLED・リレー駆動回路27に供給
されないように阻止するものである。By switching the common contact c of the relay contact 33 2 to the contact b side, the power of the battery 35 is supplied to the noise absorbing and rectifying circuit 30 and the LED / relay drive circuit 27. The LED / relay drive circuit 27 determines the output of the phototransistor 28 when the power of the battery 35 is supplied, and turns on the white LED 15 when it determines that the output is below a predetermined level. At this time, the current flowing through the white LED 15 is made larger than that when the alarm signal is taken in to raise the brightness and function as an emergency light. The common contact point c of the relay contact point 33 2 is switched to the contact point b side when the power supply from the receiver 11 is stopped.
The diode 36 prevents the power of the receiver 11 from being supplied to the LED / relay drive circuit 27 while the relay contact 33 1 is closed.
【0018】(b)受信機11の構成
図4は受信機11の構成を示すブロック図である。この
図において、受信機11は、上記白色LED15の他
に、点灯信号出力回路40、信号処理回路41、リレー
コイル42、リレー接点43、抵抗44、バッテリ(予
備電源)45、定電圧回路46、ノイズ吸収及び整流回
路47、電源トランス48、フォトトランジスタ28を
備えている。点灯信号出力回路40は火災受信機13か
ら火災、ガス漏れ等の異常信号が供給されたとき又は感
震器4からの信号が所定レベル以上になったとき又は停
電で商用電源が供給されなくたったときに信号処理回路
41から供給される指令によりパルス状の点灯信号を出
力する。点灯信号出力回路40の出力端が電源線に接続
されており、これより出力されるパルス状の点灯信号が
直流電源に重畳される。(B) Configuration of Receiver 11 FIG. 4 is a block diagram showing the configuration of the receiver 11. In this figure, the receiver 11 includes a lighting signal output circuit 40, a signal processing circuit 41, a relay coil 42, a relay contact 43, a resistor 44, a battery (standby power supply) 45, a constant voltage circuit 46, in addition to the white LED 15. A noise absorption and rectification circuit 47, a power transformer 48, and a phototransistor 28 are provided. The lighting signal output circuit 40 is not supplied with commercial power when an abnormal signal such as a fire or a gas leak is supplied from the fire receiver 13 or when the signal from the seismic sensor 4 is above a predetermined level or due to a power failure. Sometimes, a pulsed lighting signal is output according to a command supplied from the signal processing circuit 41. The output end of the lighting signal output circuit 40 is connected to the power supply line, and the pulsed lighting signal output from this is superimposed on the DC power supply.
【0019】信号処理回路41は信号線及び電源線に接
続される検出器121、122、12 3、…、12nに対し
てポーリングセレクティング方式により侵入の有無を問
い合せ、返答があった検出器12を特定すると共に警報
を出力する。また、火災受信機13から火災、ガス漏れ
等の異常信号が供給されたとき又は感震器4からの信号
が所定レベル以上になったとき又は停電で商用電源が供
給されなくたったときにフォトトランジスタ28の出力
を判定し、その出力が所定レベル以下であると判断する
と白色LED15を点灯させる。このとき、白色LED
15が高輝度で点灯する大きさの電流を流す。停電で商
用電源が供給されなくなったときにはバッテリ45の電
源が供給されるので、この電源によって動作し、このと
き周囲が暗ければ白色LED15を高輝度で点灯させ
る。The signal processing circuit 41 connects to the signal line and the power supply line.
Detector 12 followed1, 122, 12 3, ... for 12n
The polling selection method to check whether there is an intrusion.
When it meets, the detector 12 that responds is specified and an alarm is issued.
Is output. Also, a fire or gas leak from the fire receiver 13
When an abnormal signal such as is supplied, or a signal from the seismic sensor 4
Is above a specified level or due to a power failure, commercial power is supplied.
Output of phototransistor 28 when it is no longer supplied
And determine that the output is below a predetermined level.
And the white LED 15 is turned on. At this time, white LED
A current of a magnitude that allows 15 to turn on with high brightness is passed. Quotient due to blackout
When the power supply for the
The power is supplied by this power supply,
If the surroundings are dark, turn on the white LED 15 with high brightness.
It
【0020】リレー接点43は二つの接点a、bと共通
接点cとからなり、その共通接点cはリレーコイル42
が非通電状態のときに接点b側に位置し、通電状態にな
ると接点a側に切り替わる。リレー接点43の共通接点
cと接地との間に抵抗44とバッテリ45が直列に介挿
される。リレーコイル42が非通電状態になってリレー
接点43の共通接点cが接点b側に切り替わるとバッテ
リ45の電源が信号処理回路41に供給される。定電圧
回路46はノイズ吸収及び整流回路47でノイズ吸収さ
れ、整流された直流電圧を定電圧化し、検出器121、
122、123、…、12n及びリレーコイル42に供給
する。The relay contact 43 comprises two contacts a and b and a common contact c, and the common contact c is the relay coil 42.
Is located on the contact b side when it is not energized, and switches to the contact a side when it is energized. A resistor 44 and a battery 45 are inserted in series between the common contact c of the relay contact 43 and the ground. When the relay coil 42 is de-energized and the common contact c of the relay contact 43 is switched to the contact b side, the power of the battery 45 is supplied to the signal processing circuit 41. The constant voltage circuit 46 absorbs noise in the noise absorbing and rectifying circuit 47 and converts the rectified DC voltage into a constant voltage, and the detector 12 1 ,
12 2, 12 3, ..., 12n and supplied to the relay coil 42.
【0021】なお、火災、ガス漏れ等の異常信号は端子
T1を介して信号処理回路41に入力され、感震器4か
らの信号は端子T2を介して信号処理回路41に入力さ
れる。また、信号線の端子T3と検出器121、122、
123、…、12nの夫々の端子T1とが接続され、電源
線の端子T4と検出器121、122、123、…、12n
の夫々の端子T2とが接続される。An abnormal signal such as a fire or a gas leak is input to the signal processing circuit 41 via the terminal T 1, and a signal from the seismoscope 4 is input to the signal processing circuit 41 via the terminal T 2. . Further, the terminal T 3 of the signal line and the detectors 12 1 , 12 2 ,
12 3, ..., it is connected to the terminal T 1 of the respective 12n, the detector 12 1 and terminal T 4 of the power supply line, 12 2, 12 3, ..., 12n
Of the respective terminals T 2 are connected.
【0022】上記白色LED15は照明手段に、フォト
トランジスタ28は照度検出手段に、点灯信号検出回路
31は点灯信号検出手段に、点灯信号出力回路40は点
灯信号出力手段にそれぞれ対応する。また、リレーコイ
ル32及びリレー接点332は切り替え手段70を構成
し、リレーコイル42及びリレー接点43は切り替え手
段80を構成する。The white LED 15 corresponds to the illuminating means, the phototransistor 28 corresponds to the illuminance detecting means, the lighting signal detecting circuit 31 corresponds to the lighting signal detecting means, and the lighting signal output circuit 40 corresponds to the lighting signal outputting means. Further, the relay coil 32 and the relay contact 33 2 compose the switching means 70, and the relay coil 42 and the relay contact 43 compose the switching means 80.
【0023】B.防犯システムの動作
上記構成の防犯システムについて、(イ)火災、ガス漏
れ等による異常信号の移報を受けた場合、(ロ)地震が
発生した場合、(ハ)停電で商用電源の供給が途絶えた
場合、(ニ)受信機11と検出器121、122、1
23、…、12nとの間の配線が断線した場合、(ホ)侵
入があった場合のそれぞれについて説明する。B. Operation of the crime prevention system Regarding the crime prevention system with the above configuration, (a) when a signal of an abnormal signal due to fire, gas leak, etc. is received, (b) when an earthquake occurs, (c) the supply of commercial power is interrupted due to a power outage. In this case, (d) the receiver 11 and the detectors 12 1 , 12 2 , 1
2 3, ..., when the wiring between the 12n is broken, will be described for each case where there is (E) penetration.
【0024】(イ)火災、ガス漏れ等による異常信号の
移報を受けた場合
火災、ガス漏れ等の異常が生じて火災受信機13から異
常信号が移報されると、受信機11の信号処理回路41
はフォトトランジスタ28の出力を判定し、その出力が
所定レベル以下であると判断すると白色LED15を高
輝度で点灯させる。また、点灯信号出力回路40に点灯
信号を出力する指令を与え、点灯信号を出力させる。点
灯信号出力回路40から出力された点灯信号は直流電源
に重畳される。(A) When receiving an abnormal signal due to fire, gas leak, etc. When an abnormal signal such as a fire, gas leak, etc. occurs and an abnormal signal is transferred from the fire receiver 13, the signal from the receiver 11 is sent. Processing circuit 41
Judges the output of the phototransistor 28, and if the output is judged to be below a predetermined level, the white LED 15 is turned on with high brightness. Further, a command to output the lighting signal is given to the lighting signal output circuit 40 to output the lighting signal. The lighting signal output from the lighting signal output circuit 40 is superimposed on the DC power supply.
【0025】そして、直流電源に重畳された点灯信号が
各検出器121、122、123、…、12nの点灯信号検
出回路31で抽出され、LED・リレー駆動回路27に
供給される。LED・リレー駆動回路27は高周波信号
が供給されると、フォトトランジスタ28の出力を判定
し、その出力が所定レベル以下であると判断すると白色
LED15を高輝度で点灯させる。この場合、フォトト
ランジスタ28の出力が所定レベル以上であると判断す
ると白色LED15の点灯は行わない。すなわち、周囲
が安全に避難できるだけ十分に明るければ白色LED1
5を点灯させない。Then, the lighting signal superimposed on the DC power supply is extracted by the lighting signal detection circuit 31 of each of the detectors 12 1 , 12 2 , 12 3 , ..., 12n and supplied to the LED / relay drive circuit 27. When the high-frequency signal is supplied to the LED / relay drive circuit 27, the output of the phototransistor 28 is determined, and when it is determined that the output is below a predetermined level, the white LED 15 is turned on with high brightness. In this case, when it is determined that the output of the phototransistor 28 is equal to or higher than the predetermined level, the white LED 15 is not turned on. That is, if the surrounding area is bright enough to evacuate safely, the white LED 1
Do not turn on 5.
【0026】(ロ)地震が発生した場合
地震が発生した場合は上記火災、ガス漏れ等の異常信号
が移報された場合と同様に受信機11の白色LED15
が高輝度で点灯すると共に各検出器121、122、12
3、…、12nの白色LED15が高輝度で点灯する。こ
の場合、上記同様に周囲が安全に避難できるだけ十分に
明るければ白色LED15を点灯させない。(B) When an earthquake occurs When an earthquake occurs, the white LED 15 of the receiver 11 is the same as when an abnormal signal such as a fire or a gas leak is transferred.
Lights up with high brightness and each of the detectors 12 1 , 12 2 , 12
The white LEDs 15 of 3 , ..., 12n are turned on with high brightness. In this case, if the surroundings are bright enough to safely evacuate, the white LED 15 is not turned on as in the above case.
【0027】(ハ)停電で商用電源の供給が途絶えた場
合
停電で商用電源の供給が途絶えた場合は受信機11のリ
レーコイル42が非通電状態となり、リレー接点43の
共通接点cが接点aから接点bに切り替わり、バッテリ
45の電源が信号処理回路41に供給される。信号処理
回路41はバッテリ45の電源が供給されると、フォト
トランジスタ28の出力を判定し、その出力が所定レベ
ル以下であると判断すると白色LED15を高輝度で点
灯させる。この場合、上記同様に周囲が安全に避難でき
るだけ十分に明るければ白色LED15を点灯させな
い。(C) When the supply of commercial power is interrupted due to a power failure When the supply of commercial power is interrupted due to a power failure, the relay coil 42 of the receiver 11 is de-energized, and the common contact c of the relay contacts 43 becomes the contact a. To contact b, and the power of the battery 45 is supplied to the signal processing circuit 41. When the power of the battery 45 is supplied, the signal processing circuit 41 determines the output of the phototransistor 28, and when it determines that the output is below a predetermined level, the white LED 15 is turned on with high brightness. In this case, if the surroundings are bright enough to safely evacuate, the white LED 15 is not turned on as in the above case.
【0028】また、停電で商用電源の供給が途絶える
と、各検出器121、122、123、…、12nでもリレ
ーコイル32が非通電状態となり、リレー接点331が
開状態になると共にリレー接点332の共通接点cが接
点a側から接点b側に切り替わる。そして、バッテリ3
5の電源がノイズ吸収及び整流回路30に供給されると
共にLED・リレー駆動回路27に供給される。LED
・リレー駆動回路27はバッテリ35の電源が供給され
ると、フォトトランジスタ28の出力を判定し、その出
力が所定レベル以下であると判断すると白色LED15
を高輝度で点灯させる。この場合、上記同様に周囲が安
全に避難できるだけ十分に明るければ白色LED15を
点灯させない。Further, when the supply of commercial power is interrupted due to a power failure, the relay coil 32 is de-energized in each of the detectors 12 1 , 12 2 , 12 3 , ..., 12n, and the relay contact 33 1 is opened. The common contact c of the relay contact 33 2 switches from the contact a side to the contact b side. And battery 3
The power of 5 is supplied to the noise absorption and rectification circuit 30 and the LED / relay drive circuit 27. LED
The relay drive circuit 27 determines the output of the phototransistor 28 when the battery 35 is supplied with power, and the white LED 15 when it determines that the output is below a predetermined level.
Light up with high brightness. In this case, if the surroundings are bright enough to safely evacuate, the white LED 15 is not turned on as in the above case.
【0029】(ニ)受信機11と検出器121、122、
123、…、12nとの間の配線が断線した場合
受信機11と検出器121、122、123、…、12nと
の間の配線が断線すると、各検出器121、122、12
3、…、12nのリレーコイル32が非通電状態となり、
リレー接点331が開状態になると共にリレー接点332
の共通接点cが接点a側から接点b側に切り替わる。そ
して、バッテリ35の電源がノイズ吸収及び整流回路3
0に供給されると共にLED・リレー駆動回路27に供
給される。LED・リレー駆動回路27はバッテリ35
の電源が供給されると、フォトトランジスタ28の出力
を判定し、その出力が所定レベル以下であると判断する
と白色LED15を高輝度で点灯させる。この場合、上
記同様に周囲が安全に避難できるだけ十分に明るければ
白色LED15を点灯させない。(D) The receiver 11 and the detectors 12 1 , 12 2 ,
When the wiring between 12 3 , ..., 12n is broken When the wiring between the receiver 11 and the detectors 12 1 , 12 2 , 12 3 , ..., 12n is broken, each of the detectors 12 1 , 12 2 , 12
3 , ..., 12n relay coil 32 is de-energized,
The relay contact 33 1 is opened and the relay contact 33 2 is opened.
The common contact c of is switched from the contact a side to the contact b side. The power source of the battery 35 is the noise absorption and rectification circuit 3
It is supplied to the LED / relay drive circuit 27 as well as being supplied to 0. The LED / relay drive circuit 27 is a battery 35.
When the power is supplied, the output of the phototransistor 28 is determined, and when it is determined that the output is below a predetermined level, the white LED 15 is turned on with high brightness. In this case, if the surroundings are bright enough to safely evacuate, the white LED 15 is not turned on as in the above case.
【0030】(ホ)侵入があった場合
侵入があって検出器12の警報出力回路26から警報信
号が出力されると、LED・リレー駆動回路27は警報
信号を端子T1より出力する。また、LED・リレー駆
動回路27はフォトトランジスタ28の出力を判定し、
その出力が所定レベル以上であると判断すると白色LE
D15を通常の輝度、即ち発報表示灯として使用する輝
度で点灯させる。この場合、フォトトランジスタ28の
出力が所定レベル以下であれば白色LED15を高輝度
で点灯させる。(E) When there is an intrusion When an intrusion occurs and an alarm signal is output from the alarm output circuit 26 of the detector 12, the LED / relay drive circuit 27 outputs an alarm signal from the terminal T 1 . Further, the LED / relay drive circuit 27 determines the output of the phototransistor 28,
When it is judged that the output is above a predetermined level, white LE
D15 is turned on at a normal brightness, that is, a brightness used as a warning display lamp. In this case, if the output of the phototransistor 28 is below a predetermined level, the white LED 15 is turned on with high brightness.
【0031】このように、この実施の形態では、火災、
ガス漏れ等による異常信号の移報を受けたとき、地震が
発生したとき、商用電源の供給が途絶えたとき又は受信
機11と検出器121、122、123、…、12nとの間
の配線が断線したときに、周囲の明るさが安全に避難で
きるだけ十分でなければ白色LED15が高輝度で点灯
する。また、検出器121、122、123、…、12nの
いずれか一つでも動作したときに周囲が一定以上の明る
さであれば、通常の発報表示灯として使用する輝度で、
発報した検出器12の白色LED15が点灯し、周囲が
一定以上の明るさで無ければ、発報した検出器12の白
色LED15が高輝度で点灯する。As described above, in this embodiment, a fire,
When an abnormal signal is transferred due to gas leak, an earthquake occurs, the supply of commercial power is interrupted, or between the receiver 11 and the detectors 12 1 , 12 2 , 12 3 , ..., 12n. When the wiring is broken, the white LED 15 lights up with high brightness if the surrounding brightness is not enough to safely evacuate. Further, when the surroundings have a brightness of a certain level or more when any one of the detectors 12 1 , 12 2 , 12 3 , ..., 12n operates, the brightness used as a normal alarm indicator light,
The white LED 15 of the notified detector 12 is turned on, and if the surroundings are not brighter than a certain level, the white LED 15 of the notified detector 12 is turned on with high brightness.
【0032】したがって、火災、ガス漏れ等による異常
信号の移報を受けた場合や地震が発生した場合のみなら
ず、受信機11と検出器121、122、123、…、1
2nとの間の配線の断線や、停電、電源コードの断線等
により受信機11への電源の供給が途絶えた場合でも非
常灯として機能するので、災害発生時の安全性を十分に
確保できる。また、既存の防犯・防災システムに対して
簡単な改造で適用することができるので、非常灯として
機能する防犯・防災システムを安価で得ることができ
る。また、電源線を使用して各検出器121、122、1
23、…、12nに点灯信号を送ることで各検出器12の
白色LED15を点灯させるので、専用の配線を設ける
必要がない分、コストの上昇を最小限に抑えることがで
きる。Therefore, not only when an abnormal signal is transferred due to a fire or gas leak or when an earthquake occurs, but also the receiver 11 and the detectors 12 1 , 12 2 , 12 3 , ..., 1
Even if the power supply to the receiver 11 is interrupted due to the disconnection of the wiring with the 2n, the power failure, the disconnection of the power cord, etc., it functions as an emergency light, so that it is possible to sufficiently secure the safety in the event of a disaster. Further, since it can be applied to the existing crime prevention / disaster prevention system with a simple modification, the crime prevention / disaster prevention system that functions as an emergency light can be obtained at low cost. In addition, each detector 12 1 , 12 2 , 1 using the power line
Since the white LED 15 of each detector 12 is turned on by sending a turn-on signal to 2 3 , ..., 12n, it is not necessary to provide a dedicated wiring, so that cost increase can be suppressed to a minimum.
【0033】なお、上記実施の形態では、防犯用の受信
機11と火災用の受信機13とが別体であったが、一体
としたものであっても良い。また、上記実施の形態で
は、各検出器121、122、123、…、12nへの白色
LED15の取り付け位置をケース21内にしたが、図
5に示すようにケース21外にしても構わない。また、
上記実施の形態では、防犯用の受信機11及び検出器1
21、122、123、…、12nのみに非常灯の機能を設
けたが、火災用の受信機13及び検出器141、142、
…、14nにも非常灯の機能を設けても良い。Although the security receiver 11 and the fire receiver 13 are separate bodies in the above embodiment, they may be integrated. Further, in the above-described embodiment, the mounting position of the white LED 15 to each of the detectors 12 1 , 12 2 , 12 3 , ..., 12n is set to the inside of the case 21, but as shown in FIG. I do not care. Also,
In the above-mentioned embodiment, the receiver 11 and the detector 1 for crime prevention are used.
The emergency light function is provided only on 2 1 , 12 2 , 12 3 , ..., 12n, but the fire receiver 13 and the detectors 14 1 , 14 2 ,
..., 14n may also be provided with an emergency light function.
【0034】[0034]
【発明の効果】本発明によれば、以下に示す効果が得ら
れる。
(イ)火災、ガス漏れ、侵入、地震等の災害が発生した
場合のみならず、受信機と検出器との間の配線の断線
や、停電、電源コードの断線により受信機に電源の供給
が途絶えた場合でも非常灯として機能し、しかも防犯用
の検出器や火災用の検出器は建物の隅々まで設置されて
いることから、災害発生時の安全性を十分に確保するこ
とができる。
(ロ)照明手段として高輝度発光ダイオードを用いるこ
とで、十分な照度が得られると共に省電力化を図ること
ができる。According to the present invention, the following effects can be obtained. (B) Not only when there is a disaster such as a fire, gas leak, intrusion, earthquake, etc., but the power supply to the receiver is also broken due to the disconnection of the wiring between the receiver and the detector, power failure, or disconnection of the power cord. Even if it stops, it functions as an emergency light, and since crime prevention detectors and fire detectors are installed in every corner of the building, it is possible to ensure sufficient safety in the event of a disaster. (B) By using a high-intensity light emitting diode as the illumination means, sufficient illuminance can be obtained and power saving can be achieved.
【0035】(ハ)電源線を使用して各検出器に点灯信
号を送ることで各検出器の照明手段を点灯させるので、
専用の配線を設ける必要がない分、コストの上昇を最小
限に抑えることができる。
(ニ)検出器の発報である場合には照明手段を低輝度で
点灯させることで発報表示灯と非常灯を供用でき、非常
灯を別個に設ける必要がなく、その分、コストの上昇を
抑えることができる。
(ホ)周囲の明るさが一定以上あれば検出器の発報を除
いて照明手段の点灯を行わず、周囲の明るさが一定以下
であれば照明手段を高輝度で点灯させるようにすること
で、無駄な電力を消費することがなく、省電力化が図れ
る。(C) Since the lighting means of each detector is turned on by sending a lighting signal to each detector using the power supply line,
Since it is not necessary to provide a dedicated wiring, the cost increase can be suppressed to the minimum. (D) When the alarm is issued by the detector, by lighting the illumination means with low brightness, the alarm indicator light and the emergency light can be used, and it is not necessary to provide a separate emergency light, which increases the cost. Can be suppressed. (E) If the ambient brightness is above a certain level, the lighting means is not turned on except for the detection by the detector, and if the surrounding brightness is below a certain level, the lighting means is turned on with high brightness. Thus, it is possible to save power without wasting power.
【0036】(ヘ)各検出器に、バッテリと、受信機と
の間の配線が断線したときにバッテリに切り替える切り
替え手段を設けることで、受信機と各検出器との間の配
線の断線が生じた場合でも非常灯として機能するので、
災害発生時の安全性を十分に確保できる。
(ト)既存の防犯・防災システムに対して簡単な改造で
適用することができるので、非常灯として機能する防犯
・防災システムを安価で得ることができる。(F) By providing each detector with switching means for switching to the battery when the wiring between the battery and the receiver is broken, the wiring between the receiver and each detector is broken. Even if it occurs, it will function as an emergency light,
Sufficient safety can be secured in the event of a disaster. (G) Since the existing crime prevention / disaster prevention system can be applied with a simple modification, the crime prevention / disaster prevention system that functions as an emergency light can be obtained at low cost.
【図1】本発明に係る防犯・防災システムの実施の形態
の構成を示すブロック図である。FIG. 1 is a block diagram showing a configuration of an embodiment of a crime prevention / disaster prevention system according to the present invention.
【図2】同実施の形態の防犯・防災システムの防犯用の
検出器の一部破断面を示す側面図である。FIG. 2 is a side view showing a partially broken section of a crime prevention detector of the crime prevention / disaster prevention system of the same embodiment;
【図3】同実施の形態の防犯・防災システムの防犯用の
検出器の構成を示すブロック図である。FIG. 3 is a block diagram showing the configuration of a crime prevention detector of the crime prevention / disaster prevention system of the same embodiment.
【図4】同実施の形態の防犯・防災システムの受信機の
構成を示すブロック図である。FIG. 4 is a block diagram showing a configuration of a receiver of the crime prevention / disaster prevention system of the embodiment.
【図5】同実施の形態の防犯・防災システムの防犯用の
検出器の他の実施の形態の一部破断面を示す側面図であ
る。FIG. 5 is a side view showing a partially broken cross section of another embodiment of the crime prevention detector of the crime prevention / disaster prevention system of the same embodiment.
【図6】従来の防犯・防災システムの構成を示すブロッ
ク図である。FIG. 6 is a block diagram showing a configuration of a conventional crime prevention / disaster prevention system.
4 感震器 10 防犯・防災システム 11 受信機 121、122、123 防犯用の検出器 141、142 火災用の検出器 13 火災受信機 15 白色LED(照明手段、高輝度発光ダイオード) 27 LED・リレー駆動回路 28 フォトトランジスタ(照度検出手段) 31 点灯信号検出回路(点灯信号検出手段) 32、42 リレーコイル 331、332、43 リレー接点 35、45 バッテリ 40 点灯信号出力回路(点灯信号出力手段) 41 信号処理回路 70、80 切り替え手段4 Earthquake-sensing device 10 Crime prevention / disaster prevention system 11 Receiver 12 1 , 12 2 , 12 3 Crime prevention detector 14 1 , 14 2 Fire detector 13 Fire receiver 15 White LED (lighting means, high-intensity light emitting diode) ) 27 LED / relay drive circuit 28 Phototransistor (illuminance detection means) 31 Lighting signal detection circuit (lighting signal detection means) 32, 42 Relay coils 33 1 , 33 2 , 43 Relay contacts 35, 45 Battery 40 Lighting signal output circuit ( Lighting signal output means) 41 signal processing circuits 70, 80 switching means
フロントページの続き (56)参考文献 特開 平7−37175(JP,A) 特開 平6−223276(JP,A) 特開 平7−182579(JP,A) 特開 平6−111149(JP,A) 特開 平8−44967(JP,A) 特開 昭55−91593(JP,A) 特開 平3−176995(JP,A) 特開 平9−93150(JP,A) 実開 平1−155596(JP,U) 実開 平4−58798(JP,U) (58)調査した分野(Int.Cl.7,DB名) G08B 23/00 - 25/04 Continuation of front page (56) Reference JP-A-7-37175 (JP, A) JP-A-6-223276 (JP, A) JP-A-7-182579 (JP, A) JP-A-6-111149 (JP , A) JP 8-44967 (JP, A) JP 55-91593 (JP, A) JP 3-176995 (JP, A) JP 9-93150 (JP, A) 1-155596 (JP, U) Actual development 4-58798 (JP, U) (58) Fields investigated (Int.Cl. 7 , DB name) G08B 23/00-25/04
Claims (4)
を検出した際発報表示をする発報表示灯を具備する検出
器と、 この検出器と電線により接続され、該検出器の発報によ
り警報を出力する受信機と、 を備えた防犯・防災システムにおいて、前記 検出器に前記発報表示灯を非常灯として兼用させて
点灯させる照明手段を設けると共に、前記受信機への商
用電源断、地震、その他外部からの特定の信号の入力時
に前記照明手段を点灯させる制御手段を設けたことを特
徴とする防犯・防災システム。1. A detector equipped with a warning indicator lamp for displaying a warning when an abnormality such as an intrusion, a fire, a gas leak or an earthquake is detected, and a detector connected to the detector by an electric wire. a receiver for outputting an alarm by broadcast, the crime and disaster prevention systems with, by also used as emergency lights and the calling report indicator to said detector
Provided with a lighting means for lighting, commercial power interruption to the receiver, earthquakes, crime and disaster prevention system characterized in that a control means for turning on said illumination means upon input of a particular signal from other external.
自己の前記照明手段を低輝度で点灯させることを特徴と
する請求項1記載の防犯・防災システム。Wherein said detector of claim 1 Symbol placement crime and disaster prevention system, characterized in that lighting the self of the illumination means at a low luminance in the case of self-alarm.
え、この照度検出手段の出力に基づいて周囲の明るさが
一定以上あれば自己の発報である場合を除いて自己の前
記照明手段の点灯を行わず、周囲の明るさが一定以下で
あれば自己の前記照明手段を高輝度で点灯させることを
特徴とする請求項1又は2に記載の防犯・防災システ
ム。3. The detector further comprises an illuminance detecting means, and the illuminating means of its own except when it is an alarm if the ambient brightness is above a certain level based on the output of the illuminance detecting means. 3. The crime prevention / disaster prevention system according to claim 1 or 2 , wherein the lighting means is turned on with a high brightness if the surrounding brightness is not higher than a certain level.
信機との間の配線が断線したときに前記予備電源に切り
替えることを特徴とする請求項1乃至3のいずれかに記
載の防犯・防災システム。Wherein said detector comprises a standby power supply, security according to any one of claims 1 to 3 wires and wherein the switching to the standby power supply when disconnected between the receiver・ Disaster prevention system.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17156297A JP3524330B2 (en) | 1997-06-27 | 1997-06-27 | Crime and disaster prevention system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17156297A JP3524330B2 (en) | 1997-06-27 | 1997-06-27 | Crime and disaster prevention system |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH1116070A JPH1116070A (en) | 1999-01-22 |
JP3524330B2 true JP3524330B2 (en) | 2004-05-10 |
Family
ID=15925446
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP17156297A Expired - Fee Related JP3524330B2 (en) | 1997-06-27 | 1997-06-27 | Crime and disaster prevention system |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3524330B2 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB0509955D0 (en) * | 2005-05-14 | 2005-06-22 | Rafiki Holdings Ltd | Fire alarm system |
JP5052560B2 (en) * | 2009-04-23 | 2012-10-17 | 有限会社アップライト | Emergency lighting control equipment |
JP2013069333A (en) * | 2012-12-17 | 2013-04-18 | Hochiki Corp | Monitoring system |
-
1997
- 1997-06-27 JP JP17156297A patent/JP3524330B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH1116070A (en) | 1999-01-22 |
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